Medical-Grade Embedded Chassis Solutions

Precision-engineered aluminum housings for medical device applications with superior thermal management

Black assembled embedded chassis - Embedded system  Chassis
  • Black assembled embedded chassis - Embedded system  Chassis

Black assembled embedded chassis

Customize Medical embedded Chassis, Aluminum Housing

Assembled embedded chassis made by CNC milling. Surface finishing with hairline and anodizing black. We provide assembling or mounting service depends on the requirements.

Features
  • Developing customize tooling with customers requirement.
  • Light weight.
  • Highly thermal conductivity and heat dissipation.
  • Flexibility on appearance.
Material

6064 / 6063 / 5052 Aluminum

Main Processing

CNC Milling → Stamping → Drilling → Tapping

Surface Treatment

Hairline Process / Sand-Blasting or Abrasive / Anodizing / Ultrasonic Cleaning / Vibrating Finishing.

Other Process

Assembling / Packing / Thermal Adhesive or Thermal Grease.

Applicable Industry
  • Medical Device Industry
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How can proper thermal management extend the lifespan of medical diagnostic equipment?

Medical diagnostic equipment generates significant heat during operation, which can compromise performance and shorten device lifespan. Our aluminum embedded chassis provides superior thermal conductivity and heat dissipation, effectively managing operating temperatures to prevent component failure. This thermal efficiency not only extends equipment lifespan but also ensures consistent performance during critical medical procedures. Contact us to discuss your specific medical device thermal management requirements.

Each medical embedded chassis is customized to exact specifications, incorporating our comprehensive manufacturing capabilities including CNC milling, stamping, drilling, and tapping. We provide complete assembly services to streamline your production process, with options for thermal adhesive application and specialized packaging. The versatile design accommodates various medical device integration requirements while maintaining optimal heat dissipation properties, making these housings ideal for diagnostic equipment, patient monitoring systems, and other critical healthcare applications where reliability is non-negotiable.